Семенов
Владимир
Викторович
Семенов
Владимир
Викторович
Доцент
Образование:
Саратовский государственный университет им. Н.Г. Чернышевского, 2012 г., Радиофизика и электроника, квалификация "Радиофизик"
SPIM – Физические Науки для инженеров и Микротехника, Франция (l'école doctorale SPIM - Sciences Physiques pour l'Ingénieur et Microtechniques, France), 2021 г., Оптика и фотоника (Optique et photonique)
Идентификаторы в системах наукометрии:
Диссертации и учёные степени:
Кандидат физико-математических наук, Экспериментальное исследование стохастических бифуркаций в радиотехнических моделях автогенераторов и нелинейных осцилляторов, 2016 г.
PhD, Optically addressed spatial light modulators as generic dynamical systems for novel computing substrates, 2022 г.
Общий стаж:
12 лет
Стаж по специальности:
12 лет
Работа в университете:
Инженер, Учебная лаборатория радиофизики, с 2012 по 2016
Ассистент, Кафедра радиофизики и нелинейной динамики, с 2016 по 2018
Доцент, Кафедра радиофизики и нелинейной динамики, с 2023 по н.в.
Ссылки в интернете:
Основные научные публикации:
1. I.A. Korneev, A.V. Slepnev, A.S. Zakharova, T.E. Vadivasova, V.V. Semenov. Generalized model for steady-state bifurcations without parameters in memristor-based oscillators with lines of equilibria. Nonlinear Dynamics 111 (2) — 1235-1243 — 2023.
2. I. A. Korneev, I. R. Ramazanov, V. V. Semenov, A. V. Slepnev, T. E. Vadivasova. Synchronization of Traveling Waves in Memristively Coupled Ensembles of FitzHugh–Nagumo Neurons With Periodic Boundary Conditions. Frontiers in Physics 10 — 2022.
3. Vladimir V. Semenov, Xavier Porte, Ibrahim Abdulhalim, Laurent Larger, Daniel Brunner. Erratum: “Two-color optically addressed spatial light modulator as a generic spatiotemporal system” [Chaos 31, 121104 (2021)]. Chaos: An Interdisciplinary Journal of Nonlinear Science 32 (2) — 029901 — 2022.
4. Vladimir Semenov. Synthesis of memristive one-ports with piecewise-smooth characteristics. International Journal of Electronics Letters — 1-10 — 2022. (1 citations).
5. I.A. Korneev, V.V. Semenov, A.V. Slepnev, T.E. Vadivasova. The impact of memristive coupling initial states on travelling waves in an ensemble of the FitzHugh–Nagumo oscillators. Chaos, Solitons & Fractals 147 — 110923 — 110923 — 2021. (6 citations).
6. Vladimir V. Semenov, Xavier Porte, Ibrahim Abdulhalim, Laurent Larger, Daniel Brunner. Two-color optically addressed spatial light modulator as a generic spatiotemporal system. Chaos: An Interdisciplinary Journal of Nonlinear Science 31 (12) — 121104 — 2021. (1 citations).
7. Vladimir V. Semenov, Xavier Porte, Claudio Conti, Ibrahim Abdulhalim, Laurent Larger, Daniel Brunner. Optically-addressed spatial light modulator for the Ising machine implementation. 2021 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC) — 2021.
8. I.A. Korneev, A.V. Slepnev, T.E. Vadivasova, V.V. Semenov. Subcritical Andronov–Hopf scenario for systems with a line of equilibria. Chaos: An Interdisciplinary Journal of Nonlinear Science 31 (7) — 073102 — 2021. (3 citations).
9. I.A. Korneev, V.V. Semenov, A.V. Slepnev, T.E. Vadivasova. Complete synchronization of chaos in systems with nonlinear inertial coupling. Chaos, Solitons & Fractals 142 — 110459 — 110459 — 2021. (13 citations).
10. И.А. Корнеев, А.В. Слепнев, В.В. Семенов, Т.Е. Вадивасова. Волновые процессы в кольце мемристивно связанных автогенераторов. Izvestiya VUZ. Applied Nonlinear Dynamics 28 (3) — 324-340 — 2020.
11. I.A. Korneev, V.V. Semenov, T.E. Vadivasova. Synchronization of Periodic Self-Oscillators Interacting via Memristor-Based Coupling. International Journal of Bifurcation and Chaos 30 (07) — 2050096 — 2020. (6 citations).
12. I.A. Korneev, A.V. Slepnev, V.V. Semenov, T.E. Vadivasova. Forced synchronization of an oscillator with a line of equilibria. The European Physical Journal Special Topics 229 (12-13) — 2215-2224 — 2020. (4 citations).
13. I.A. Korneev, A.V. Slepnev, V.V. Semenov, T.E. Vadivasova. Mutual Synchronization of Dissipatively Coupled Memristive Self-Oscillators. Izvestiya of Saratov University. New series. Series: Physics 20 (3) — 210-221 — 2020.
14. Tatiana R. Bogatenko, Vladimir V. Semenov. Coherence resonance in an excitable potential well. Physics Letters A 382 (37) — 2645-2649 — 2018. (5 citations).
15. Vladimir V. Semenov, Yuri L. Maistrenko. Dissipative solitons for bistable delayed-feedback systems. Chaos: An Interdisciplinary Journal of Nonlinear Science 28 (10) — 101103 — 2018. (5 citations).
16. T. E. Vadivasova, I. A. Korneev, O. G. Shabalina, V. V. Semenov. SYNCHRONIZATION SELF-SUSTAINED OSCILLATORS INTERACTING THROUGH THE MEMRISTOR. Izvestiya VUZ. Applied Nonlinear Dynamics 26 (2) — 24-40 — 2018. (1 citations).
17. Vladimir V. Semenov. Self-oscillation excitation under condition of positive dissipation in a state-dependent potential well. Chaos, Solitons & Fractals 116 — 358-364 — 2018. (2 citations).
18. Ivan A. Korneev, Vladimir V. Semenov. Andronov–Hopf bifurcation with and without parameter in a cubic memristor oscillator with a line of equilibria. Chaos: An Interdisciplinary Journal of Nonlinear Science 27 (8) — 081104 — 2017. (17 citations).
19. Vladimir V. Semenov. Noise-induced transitions in a double-well excitable oscillator. Physical Review E 95 (5) — 052205 — 2017. (3 citations).
20. Ivan A. Korneev, Tatiana E. Vadivasova, Vladimir V. Semenov. Hard and soft excitation of oscillations in memristor-based oscillators with a line of equilibria. Nonlinear Dynamics 89 (4) — 2829-2843 — 2017. (14 citations).
21. V. Semenov, A. Zakharova, Y. Maistrenko, E. Schöll. Delayed-feedback chimera states: Forced multiclusters and stochastic resonance. EPL (Europhysics Letters) 115 (1) — 10005 — 2016. (47 citations).
22. K. V. Zakoretskii, V. V. Semenov, T. E. Vadivasova. Experimental study of the effect of parametric noise on the Andronov–Hopf bifurcation in brusselator. Journal of Communications Technology and Electronics 61 (10) — 1120-1128 — 2016. (1 citations).
23. V. V. Semenov, A. B. Neiman, Т. Е. Vadivasova, V. S. Anishenko. NOISE-INDUCED EFFECTS IN THE DOUBLE-WELL OSCILLATOR WITH VARIABLE FRICTION. Izvestiya VUZ. Applied Nonlinear Dynamics 24 (1) — 5-15 — 2016. (1 citations).
24. V. Semenov, A. Zakharova, Y. Maistrenko, E. Schöll. Deterministic and stochastic control of chimera states in delayed feedback oscillator. AIP Conference Proceedings — 2016. (3 citations).
25. Vladimir V. Semenov, Alexander B. Neiman, Tatyana E. Vadivasova, Vadim S. Anishchenko. Noise-induced transitions in a double-well oscillator with nonlinear dissipation. Physical Review E 93 (5) — 052210 — 2016. (13 citations).
26. Vladimir Semenov, Alexey Feoktistov, Tatyana Vadivasova, Eckehard Schöll, Anna Zakharova. Time-delayed feedback control of coherence resonance near subcritical Hopf bifurcation: Theory versus experiment. Chaos: An Interdisciplinary Journal of Nonlinear Science 25 (3) — 033111 — 2015. (38 citations).
27. V. Semenov, I. Korneev, P. Arinushkin, G. Strelkova, T. Vadivasova, V. Anishchenko. Numerical and experimental studies of attractors in memristor-based Chua’s oscillator with a line of equilibria. Noise-induced effects. The European Physical Journal Special Topics 224 (8) — 1553-1561 — 2015. (25 citations).
28. Anastasia Alekseevna Kuptsova, Vladimir Viktorovich Semenov, Aleksandr Serafimovich Listov. Study of Stochastic Andronov – Hopf Bifurcation in the Oscillator by a Numerical Method. Izvestiya of Saratov University. New series. Series: Physics 14 (2) — 59-64 — 2014.
29. V. V. Semenov, T. E. Vadivasova, V. S. Anishchenko. Experimental investigation of the evolution of probability distribution in self-sustained oscillators with additive noise. Technical Physics Letters 39 (7) — 632-635 — 2013. (2 citations).
30. В.С. Маляев, В.В. Семенов, Т.Е. Вадивасова. Экспериментальная оценка неизвестного параметра нелинейной системы в присутствии динамического шума. Applied nonlinear dynamics. Izvestiya VUZ 20 (3) — 17-28 — 2012.
Победы в грантах и научных проектах:
- Грант РНФ № 23-72-10040 «Стабилизация динамических режимов в спайковых нейронных сетях в условиях экстремальных воздействий», 2023-2026, исполнитель
- Грант РНФ № 22-72-00038 «Индуцированные шумом эффекты в многослойных сетях связанных бистабильных осцилляторов и системах с запаздыванием. Численное моделирование и физический эксперимент», 2022-2024, руководитель